JP3373207B2 - Shoe closure - Google Patents

Abstract

PCT No. PCT/DE93/01140 Sec. 371 Date Jun. 5, 1995 Sec. 102(e) Date Jun. 5, 1995 PCT Filed Nov. 28, 1993 PCT Pub. No. WO94/13165 PCT Pub. Date Jun. 23, 1994A shoe closure, consisting of a rope pulley mounted rotatably in a bearing element to wind up at least one ropelike tightening element to close the shoe, a rotating element to actuate the rope pulley and a reducing gear between rotating element and rope pulley in the form of an eccentric drive, is to be improved so that no nonuniform tightening or pulling movements of the tightening element occur. This is achieved in that rope pulley (3) is designed as an independent unit mounted rotatably concentrically to central axis (9). Eccentric knob (10) is mounted movably parallel to rope pulley (3) and is movable, by eccentric driving pin (12), in a plane parallel to rope pulley (3). Eccentric knob (10) has one or more sector or sectors (16) on a circle (14) concentric to its axis of rotation (13), sector or sectors whose center or centers (15) lies or lie on concentric circle (14) and whose double radius (rK) is at least approximately equal to the sum of diameter (D) of a coupling pin (17) attached to rope pulley (3) and diameter (DK) of circular path (18) of eccentric driving pin (12) (FIG. 1 ).

Description

The present invention relates to a shoe closure of the type described in the preamble of claim 1.

A shoe closure of this type is known from German Patent DE 2900077.

In this known shoe closure, a self-locking type eccentric transmission is provided as a reduction transmission. In this case, the rope disc is arranged directly on the eccentric transmission wheel and causes an eccentric movement of the eccentric transmission wheel when the tightening member is tightened and when the tightening is released. This results in uneven tightening or pulling movements.

The object of the present invention is to improve the known shoe closure so that non-uniform tightening or pulling movements of the tightening member or members are no longer present.

This problem has been solved by the features of claim 1.

The present invention is particularly characterized by the following. That is, by the independent arrangement of the rope discs and the driving of the rope discs through the eccentric transmission disc or a plurality of circular cutouts of the eccentric transmission disc, a completely uniform rotational movement corresponding to the rotation of the rotating member can be obtained. That is. The desired reduction is obtained from the selected number of teeth on the gearing. This allows the closing force of the shoe closure according to the invention to be finely adjusted.

The eccentric gearing is advantageously configured to self-lock in both directions, as opposed to known means.

It is further advantageous to engage between one of the rotatable parts and the immovable casing part or the part fixed or fixable on the casing part in a respectively adjusted rotational position. Locking means for stopping is provided, and the locking action of the locking means can be released by a rotation moment acting on the rotating member in order to change the rotational position.

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is an exploded view of the shoe closure of the present invention in individual parts.

FIG. 2 is a cross-sectional view of the shoe closure of claim 1 as seen from the side in an assembled state.

3 to 9 are views of the individual parts of the shoe closure of FIGS. 1 and 2 as seen from above or below.

  FIG. 10 is a sectional view taken along the line I-I of FIG.

  FIG. 11 is a sectional view taken along the line II-II in FIG.

The shoe closure according to the invention has a casing part 1 according to FIGS. 1 and 2 for receiving a rope disc 3 and one or more rope-like tightening members 3a. It has a circular cutout 2. The rope tightening member 3a or the plurality of rope tightening members 3a is introduced into the rope disc 3 through a supply unit 3b provided in the rope disc 3 and known per se. The rope disc 3 has a central hole 4 into which a bearing pin 5 of a shaft unit 6 penetrates, so that the casing part 1
Ends in a bearing hole 7 provided in the bottom 8 of the. The axes of the bearing pins 5 at the same time form the central axis 9 of the shoe closure.

An eccentric transmission disc 10 is mounted on the rope disc 3. The eccentric transmission disc 10 has a central bearing hole 11 in which it is rotatably supported by an eccentric transmission pin 12 of the shaft unit 6, which is arranged eccentrically with respect to the central axis 9. There is. The center points 15 of a plurality (six in the illustrated embodiment) of circular notches 16 are located on a concentric circle 14 (see FIG. 7) with respect to the rotation axis 13 of the eccentric transmission pin 12, and the circular notches One connecting pin 17 of each rope disc 3 is engaged with the pin 16. The angular position of the circular cutout 16 corresponds to the angular position of the connecting pin 17. Advantageously circular cutout
The 16 are arranged so as to be offset from each other by the same angle (60 degrees in the illustrated embodiment). Basically, only one circular notch 16 for the working connection of one connecting pin 17 is sufficient.

As the shaft unit 6 rotates about the center axis 9, the rotation axis 13 of the eccentric transmission pin 12 draws a circular orbit 18 (see FIG. 11) that is concentric with the center axis 9. The center point 19 of the connecting pin 17 is located on a center point circle 20 (see FIG. 11) that is concentric with the center axis 9.

The outer contour of the eccentric transmission disc 10 forms the teeth 21,
This tooth 21 is able to roll with the inner contour of a downwardly projecting collar 23 on one side, which is provided on a disc 24 which covers the eccentric transmission disc 10 and is formed as a corresponding tooth 22. The disk 24 has a central hole 25, which is
At 25, the shaft unit 6 is rotatably supported concentrically with respect to the central axis 9. The disc 24 further comprises one or more fastening means 26, which
Can be fixed to the casing part 1 in a non-rotatable manner at one or more fixing positions (see FIGS. 5, 6, 10, and 11 above).

The disc 24 has another collar 27, which projects away from the collar 23 and projects upwards. The inner contour of this collar 27 forms a locking ring 28 (see FIG. 10).
The locking projection 29 of the locking spring 30 abuts on the spring 28 so as to be elastically locked. The locking spring 30 itself has a fixing hole 31,
It is fixed to a support pin 32 of a rotating member 33 that covers the. The rotary member 33 is connected to the shaft unit 6 by screws 34, for example, or is formed together with the shaft unit 6 from one structural unit. The rotary member 33 is further provided with an elastic cover cap 35, which is preferably used as an actuating member of the shoe closure.

In order to have a play-free reduction gear, the radius r _K of the circular notch 16 may be equal to, or at least approximately equal to, the diameter D _K of the circular track 18 of the eccentric transmission pin 12.

Basically, the diameter D of the connecting pin 17 can be freely selected within a predetermined range, and this also applies to the diameter D _K of the circular track 18 of the eccentric transmission pin 12.

That is to say, each of the following formulas applies: 2 × r _K = D + D _K (including a minimum play of about 0.05 to 0.1 mm) This formula indicates that the radius r _K of the circular cutout 16 is twice the connecting pin.
It means that it is approximately equal to the sum of the diameter D of 17 and the diameter D _K of the circular orbit 18 of the eccentric transmission pin 12.

The height H _Z of the corresponding tooth 22 is at least approximately equal to the thickness D _E of the eccentric transmission disc 10.

FIG. 4 shows a locking spring 30 having only one locking projection 29. However, it is also possible to provide two or more locking projections which are preferably evenly distributed over this spring part.

In some cases, more than one rope-like tightening member for closing the shoe may be used.

The configuration in which the eccentric transmission devices 6, 10, 17 self-lock in both rotation directions is obtained as follows. That is, the recessed portion 28a of the locking ring portion 28 is formed symmetrically with respect to one or a plurality of locking protrusions 29 regardless of the rotation direction. The rotational moment required to release the locking action is well controlled by the number and profile of the recesses 28a and the locking projection (s) 29.

The bearing pin 5, the eccentric transmission pin 12 and the bearing shaft addition 6.1 shown in FIG. 1 are formed as a shaft unit 6. The shaft unit 6 is either rigidly connected to the rotary members 33, 35 or together with the rotary members 33, 35 forms one component unit.

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-3-155801 (JP, A) JP-A-57-145602 (JP, A) West German patent application publication 2900077 (DE, A1) British patent 4748726 (GB , B) (58) Fields investigated (Int.Cl. ⁷ , DB name) A43C 1/00 17/06 A43B 23/02

Claims (11)

(57) [Claims] 1. A shoe closure rotatably supported on a bearing member for operating at least one rope-like tightening member for closing a shoe and operating said rope disc. And a reduction gear transmission provided in the form of an eccentric transmission between the rotation member and the rope disc, in which case an eccentric transmission connected to the rope disc via the rotation member. A disk is drivable, the eccentric transmission disk is supported on an eccentric transmission pin, and the outer circumference of the eccentric transmission disk is formed as a tooth, which tooth surrounds the eccentric transmission disk so as to surround the eccentric transmission disk. In the type in which it is operatively connected with the corresponding teeth of the casing wall which are arranged concentrically with respect to the central axis, the rope disc (3) is coaxial with the central axis (9). Formed as an independent unit rotatably supported, the eccentric transmission disc (10) is slidably supported parallel to the rope disc (3), and the eccentric transmission pin (12) is provided. Is slidable in a plane parallel to the rope disc (3) through the eccentric transmission pin (12) and a concentric circle (14) with respect to the rotation axis (13) of the eccentric transmission pin (12). Lacking (16)
And the center point (15) of the circular notch (16) is
Located on concentric circles (14), said circular notches (16)
Twice the radius (rK) of the diameter of the connecting pin (17) attached to the rope disc (3) (D) and the diameter of the circular track (18) of the eccentric transmission pin (12) (DK) A shoe closure characterized by being approximately equal to the sum. 2. When a plurality of circular notches (16) are arranged in the eccentric transmission disc (10), each one connecting pin (17) protruding into the circular notches (16) is It is provided corresponding to the angular arrangement of the corresponding circular notches (16), in which case the center point (19) of the connecting pin (17) is concentric with the central axis (9). It is arranged on the point circle (20) and the radius (R) of the circle (20)
The shoe closure according to claim 1, wherein is equal to the radius (r) of the concentric circle (14) with respect to the central axis (13) of the eccentric transmission pin (12) which is drawn by the center point (15) of the circular notch (16). 3. The shoe closure according to claim 1, wherein the eccentric transmission (6, 10, 17) is formed so as to be self-locking in both rotational directions. 4. Between one of the rotatable parts (35,33 or 33,24) and the stationary casing part (1) or a part (24) fixed or fixable to the casing part (1). Locking means (28, 29, 30) for locking so as to lock at each adjusted rotational position, and the locking action of the locking means (28, 29, 30) is the rotational position. The shoe closure according to any one of claims 1 to 3, wherein the shoe closure can be released by changing the rotational moment acting on the rotating member (33, 35). 5. Locking means (2) for the fixable part (24)
8) is formed of an annular locking ring portion (28), and locking means (30) for the rotatable portion (33 or 35).
Spring-elastically preloaded with locking annulus (2
Shoe closure according to claim 4, characterized in that it is formed from at least one locking projection (29) which engages with (8). 6. Use of a part (24) fixable to the casing part (1), said part (24) being pivotably or rotatably mounted on the casing part (1), The fixed part is formed so that the fixing can be released,
The shoe closure according to any one of claims 1 to 5. 7. The fixable part (24) has a central axis (9).
A disk rotatably supported about the disk, the disk having an outer ring part or an inner ring part (28) on the side facing the rotating member (33, 35). The part (28) has a rotary member (35) or the rotary member (35).
A locking projection (29) fixed or connected to a portion (33) to be coupled with the spring (29) abuts so as to be elastically locked.
The shoe closure according to claim 6. 8. The disk (24) is provided with corresponding teeth (22) on the side opposite to the rotating member (35), and the eccentric transmission disk (10) having teeth (21) is provided with the corresponding teeth. Centering around a shaft unit (6) slidable in parallel with the disc (24) in a room surrounded by (22) and penetratingly engaging with a bearing hole (25) of the disc (24). A shoe closure according to claim 7, which is rotatably mounted as. 9. A shoe closure according to claim 8, wherein the height (HZ) of the corresponding teeth (22) is approximately equal to the thickness (DE) of the eccentric transmission disc (10). 10. A casing part (1) is formed in the shape of a cup, on the inside of which a rope disc (3) is slidably mounted on a bottom part (8) and fixed to the casing part (1). The eccentric transmission disc (10) is slidable on the rope disc (3) in parallel to the rope disc (3) and is rotatable about the supported support pin (5). It is rotatably supported about an eccentric transmission pin (12) connected to (5), in which case the teeth (21) of the eccentric transmission disc (10) are mounted on the eccentric transmission disc (10). The disc (24) meshes with the corresponding teeth (22) of the disc (24), and the eccentric transmission pin (1) is concentrically arranged with respect to the bearing pin (5).
It is rotatably supported about a bearing shaft addition (6.1) connected to 2), but is non-rotatable but dissociable in the casing part (1) via at least one fixing means (26). The rotating member (33, 35) is attachable via a disc (24), and locking means (28, 29) is provided between the disc (24) and the rotating member (33, 35). , 30) are provided. The shoe closure according to any one of claims 1 to 9. 11. A bearing pin (5) and an eccentric transmission pin (12)
And a bearing shaft addition portion (6.1) are formed as a shaft unit (6), and the shaft unit (6) includes a rotating member (33, 3).
5) fixedly connected to the rotating member (33,3)
The shoe closure according to claim 10, which together with 5) forms one unit.